Cardiac GR Mediates the Diurnal Rhythm in Ventricular Arrhythmia Susceptibility

生物 昼夜节律 泽吉伯 节奏 染色质 转录因子 离子通道 内科学 内分泌学 神经科学 医学 遗传学 受体 生物钟 DNA 基因
作者
Roman Tikhomirov,Robert H. Oakley,Cali Anderson,Yirong Xiang,Saleh Othman,Matthew Smith,Sana Yaar,Eleonora Torre,Jianying Li,Leslie R. Wilson,David R. Goulding,Ian J. Donaldson,Erika Harno,Luca Soattin,Holly A. Shiels,Gwilym M. Morris,Henggui Zhang,Mark R. Boyett,John A. Cidlowski,Pietro Mesirca,Matteo E. Mangoni,Alicia D’Souza
出处
期刊:Circulation Research [Ovid Technologies (Wolters Kluwer)]
标识
DOI:10.1161/circresaha.123.323464
摘要

Ventricular arrhythmias (VAs) demonstrate a prominent day-night rhythm, commonly presenting in the early morning. Transcriptional rhythms in cardiac ion channels accompany this phenomenon, but their role in the morning vulnerability to VAs and the underlying mechanisms are not understood.The objectives are to investigate the recruitment of transcription factors to time-of-day differentially accessible chromatin that underpins day-night ion channel rhythms and to assess the significance of this for the heart's day-night rhythm in VA susceptibility.Assay for transposase-accessible chromatin with sequencing performed in mouse ventricular myocyte nuclei at the beginning of the inactive (zeitgeber time, time of lights on, start of sleep period) and active (time of lights off, start of awake period [ZT12]) periods revealed differentially accessible chromatin sites annotating to rhythmically transcribed ion channels and transcription factor binding motifs in these regions. Notably, motif enrichment for the glucocorticoid receptor (GR; transcriptional effector of corticosteroid signaling) binding site in open chromatin profiles at ZT12 was observed, in line with the well-recognized ZT12 peak in circulating corticosteroids. Molecular, electrophysiological, and in silico biophysically detailed modeling approaches demonstrated GR-mediated transcriptional control of ion channels (including Scn5a underlying the cardiac Na+ current, Kcnh2 underlying the rapid delayed rectifier K+ current, and Gja1 responsible for electrical coupling) and their contribution to the day-night rhythm in the vulnerability to VA. Strikingly, both pharmacological block of GR and cardiomyocyte-specific genetic knockout of GR blunted or abolished ion channel expression rhythms and abolished the ZT12 susceptibility to pacing-induced VA in isolated hearts.Our study registers a day-night rhythm in chromatin accessibility that accompanies diurnal cycles in ventricular myocytes. Our approaches directly implicate the cardiac GR in the myocyte excitability rhythm and mechanistically link the ZT12 surge in glucocorticoids to intrinsic VA propensity at this time.
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